Basic Information

Insect: Reticulitermes lucifugus
Gene Symbol: -
Assembly: GCA_026260175.1
Location: JAKCWW010001294.1:14707-29540[-]

Transcription Factor Domain

TF Family: zf-C2H2
Domain: zf-C2H2 domain
PFAM: PF00096
TF Group: Zinc-Coordinating Group
Description: The C2H2 zinc finger is the classical zinc finger domain. The two conserved cysteines and histidines co-ordinate a zinc ion. The following pattern describes the zinc finger. #-X-C-X(1-5)-C-X3-#-X5-#-X2-H-X(3-6)-[H/C] Where X can be any amino acid, and numbers in brackets indicate the number of residues. The positions marked # are those that are important for the stable fold of the zinc finger. The final position can be either his or cys. The C2H2 zinc finger is composed of two short beta strands followed by an alpha helix. The amino terminal part of the helix binds the major groove in DNA binding zinc fingers. The accepted consensus binding sequence for Sp1 is usually defined by the asymmetric hexanucleotide core GGGCGG but this sequence does not include, among others, the GAG (=CTC) repeat that constitutes a high-affinity site for Sp1 binding to the wt1 promoter [1].
Hmmscan Out: # of c-Evalue i-Evalue score bias hmm coord from hmm coord to ali coord from ali coord to env coord from env coord to acc

1 37 8.5e-05 0.0085 17.2 3.4 1 23 234 256 234 256 0.97

2 37 0.045 4.5 8.6 3.4 1 23 293 316 293 316 0.93

3 37 0.0001 0.01 17.0 3.7 2 23 323 345 322 345 0.97

4 37 6.2 6.2e+02 1.9 0.1 5 23 429 447 427 447 0.90

5 37 0.0022 0.22 12.8 1.5 1 23 582 604 582 604 0.98

6 37 1.2 1.2e+02 4.1 6.4 1 23 621 644 621 644 0.93

7 37 0.0015 0.15 13.2 0.2 1 23 728 751 728 751 0.96

8 37 0.032 3.2 9.1 1.5 1 23 757 780 757 780 0.97

9 37 0.0094 0.94 10.8 0.2 3 23 880 901 878 901 0.94

10 37 2.6 2.6e+02 3.1 1.2 1 23 923 946 923 946 0.94

11 37 1.5 1.5e+02 3.8 3.6 2 23 953 976 952 977 0.87

12 37 1.8 1.8e+02 3.6 0.0 2 23 986 1008 986 1008 0.91

13 37 0.61 61 5.1 1.1 2 23 1015 1037 1014 1037 0.94

14 37 1.1e-05 0.0011 20.0 2.9 1 23 1045 1067 1045 1067 0.97

15 37 3.3 3.3e+02 2.8 0.4 3 23 1163 1185 1161 1185 0.92

16 37 0.0071 0.71 11.1 0.8 1 23 1188 1211 1188 1211 0.96

17 37 0.0033 0.33 12.2 1.1 2 23 1218 1240 1217 1240 0.96

18 37 0.077 7.7 7.9 6.2 1 21 1270 1290 1270 1291 0.96

19 37 0.00035 0.035 15.3 0.3 2 23 1318 1340 1318 1340 0.96

20 37 0.12 12 7.3 0.1 3 23 1345 1367 1344 1367 0.90

21 37 0.33 32 5.9 4.6 1 23 1373 1397 1373 1397 0.95

22 37 0.24 24 6.3 0.6 2 22 1405 1425 1405 1428 0.89

23 37 3.8 3.8e+02 2.5 0.1 2 23 1435 1457 1434 1457 0.93

24 37 3.9 3.9e+02 2.5 2.1 2 23 1466 1488 1465 1488 0.91

25 37 0.0017 0.17 13.1 0.5 1 23 1492 1515 1492 1515 0.93

26 37 0.061 6.1 8.2 0.1 2 23 1555 1577 1554 1577 0.90

27 37 0.00045 0.044 14.9 0.5 1 23 1609 1632 1609 1632 0.95

28 37 0.00064 0.064 14.4 3.4 1 23 1642 1666 1642 1666 0.91

29 37 4.1 4e+02 2.5 1.4 2 23 1819 1841 1818 1841 0.92

30 37 1.1 1.1e+02 4.3 1.1 2 23 1848 1870 1847 1870 0.95

31 37 3.9 3.9e+02 2.5 1.2 1 23 1881 1903 1881 1903 0.92

32 37 0.0082 0.82 11.0 6.9 1 23 1919 1941 1919 1941 0.97

33 37 0.021 2.1 9.6 1.7 1 23 1959 1981 1959 1981 0.98

34 37 0.00033 0.033 15.3 1.1 1 23 2019 2041 2019 2041 0.98

35 37 0.001 0.1 13.8 0.1 1 23 2069 2091 2069 2091 0.96

36 37 0.083 8.3 7.8 0.3 1 23 2133 2156 2133 2156 0.93

37 37 3.4 3.4e+02 2.7 3.4 1 21 2160 2181 2160 2182 0.87

#	of	c-Evalue	i-Evalue	score	bias	hmm coord from	hmm coord to	ali coord from	ali coord to	env coord from	env coord to	acc
1	37	8.5e-05	0.0085	17.2	3.4	1	23	234	256	234	256	0.97
2	37	0.045	4.5	8.6	3.4	1	23	293	316	293	316	0.93
3	37	0.0001	0.01	17.0	3.7	2	23	323	345	322	345	0.97
4	37	6.2	6.2e+02	1.9	0.1	5	23	429	447	427	447	0.90
5	37	0.0022	0.22	12.8	1.5	1	23	582	604	582	604	0.98
6	37	1.2	1.2e+02	4.1	6.4	1	23	621	644	621	644	0.93
7	37	0.0015	0.15	13.2	0.2	1	23	728	751	728	751	0.96
8	37	0.032	3.2	9.1	1.5	1	23	757	780	757	780	0.97
9	37	0.0094	0.94	10.8	0.2	3	23	880	901	878	901	0.94
10	37	2.6	2.6e+02	3.1	1.2	1	23	923	946	923	946	0.94
11	37	1.5	1.5e+02	3.8	3.6	2	23	953	976	952	977	0.87
12	37	1.8	1.8e+02	3.6	0.0	2	23	986	1008	986	1008	0.91
13	37	0.61	61	5.1	1.1	2	23	1015	1037	1014	1037	0.94
14	37	1.1e-05	0.0011	20.0	2.9	1	23	1045	1067	1045	1067	0.97
15	37	3.3	3.3e+02	2.8	0.4	3	23	1163	1185	1161	1185	0.92
16	37	0.0071	0.71	11.1	0.8	1	23	1188	1211	1188	1211	0.96
17	37	0.0033	0.33	12.2	1.1	2	23	1218	1240	1217	1240	0.96
18	37	0.077	7.7	7.9	6.2	1	21	1270	1290	1270	1291	0.96
19	37	0.00035	0.035	15.3	0.3	2	23	1318	1340	1318	1340	0.96
20	37	0.12	12	7.3	0.1	3	23	1345	1367	1344	1367	0.90
21	37	0.33	32	5.9	4.6	1	23	1373	1397	1373	1397	0.95
22	37	0.24	24	6.3	0.6	2	22	1405	1425	1405	1428	0.89
23	37	3.8	3.8e+02	2.5	0.1	2	23	1435	1457	1434	1457	0.93
24	37	3.9	3.9e+02	2.5	2.1	2	23	1466	1488	1465	1488	0.91
25	37	0.0017	0.17	13.1	0.5	1	23	1492	1515	1492	1515	0.93
26	37	0.061	6.1	8.2	0.1	2	23	1555	1577	1554	1577	0.90
27	37	0.00045	0.044	14.9	0.5	1	23	1609	1632	1609	1632	0.95
28	37	0.00064	0.064	14.4	3.4	1	23	1642	1666	1642	1666	0.91
29	37	4.1	4e+02	2.5	1.4	2	23	1819	1841	1818	1841	0.92
30	37	1.1	1.1e+02	4.3	1.1	2	23	1848	1870	1847	1870	0.95
31	37	3.9	3.9e+02	2.5	1.2	1	23	1881	1903	1881	1903	0.92
32	37	0.0082	0.82	11.0	6.9	1	23	1919	1941	1919	1941	0.97
33	37	0.021	2.1	9.6	1.7	1	23	1959	1981	1959	1981	0.98
34	37	0.00033	0.033	15.3	1.1	1	23	2019	2041	2019	2041	0.98
35	37	0.001	0.1	13.8	0.1	1	23	2069	2091	2069	2091	0.96
36	37	0.083	8.3	7.8	0.3	1	23	2133	2156	2133	2156	0.93
37	37	3.4	3.4e+02	2.7	3.4	1	21	2160	2181	2160	2182	0.87

Sequence Information

Coding Sequence: ATGTCATGCGGCCCGGATAATTACATGGAGTTGTGTAGACTTTGTGCATGCTATGATGCCATCAAAATGGAAATATTTGGCGACGAAGGCAGGGAAAGAAATTTGGTTGACAAGATACAGACATGTCTCCCTCTCCAGGTGTCAGAGAGAGATAACCTGCCAAAGTCATTATGCTATCGATGTATGTACAATCTGGAAAACTTCTATGACTTCAGGAAGAGAAGTGTCAATGCAGTTGCTCTGCTGGAGAGCTGTATTGGGCAGTCAGAGGGCAGCACTGAAGTGGGTGCAGAACTGAAAGAACAATTTGAGCGGCTTCGTAGTCAGTTGCGTGACATTAAGAATGACGAAACACAGGAGAAAGACATACCAATGCCTCACCTTGAGCCTCAGTTTCCTGTTCCAATGCTAGTTCCTGAAAATAGACAGACTGGTGGGACAGGACCAGGACACAGTGAAGCACTGAGCTCTGCCAATGTGCAGTCAGAGGCCCACCCACCATCTGATGATGAAGTTACAGAAGTGAAGCATGAAGATGATGAAGTTGCAGAAGTGAAGCGTGATGAACACGATGATCAGCATGTTTCCATGGACAGTGAGGTGGTTGACAATACCAGTGGCAGAAAGAAGGGTGCCATTAAGTCTGGCAGGTACAGTGGTGGAGTAGGGGAAGAAGAACTGTCTGAACAGGAAATGTTTCATACTTGCAGTATTTGTAATAAGGCATTCTCCAGTAATGGGCATCTGACACTTCATAACAAGATCCACATGAAGGAAGCCGTTATGGAAAATCATTCCAAGCAACCATGTTGTCAAACCAGCAGCCCTGTGGACAAATCACTGGATCTTAACTGGAAGAGTGGTTACTATCGTCCTTACCGTTGTGATCTGTGTAATAAATCATATTCAACTGCGAAACACCGTTGGGGACATGTCAGTGTATGTCATCGTGGCAATCCTCTTGTAACATGCCCCATATGTTCAAGAGTCTTTTCTACTTGCCACAATCTTGCAGAACATAAGAGAACAAAGCATGGCTTGGAGGAAGGAGAGATTGTTGATATAAATGATGGCGAGGAAGCTGTCACTGACAATTCTTCGGTATCTGTTACTAATTCTCTGAAACACAGCACTTCATTGACAACACAGCATTCAGTTGATAAGAGAAATTCATATTCAGCCATTGCAGACAACTTCCAGAAATCAGCAGGCAACTTGAAGAGTAGTCAGAGTGGAACCAGCAAGTCATCATTAAACAACCCTGAAGCCCTACATACAGGTATGAAATGTCTTAAACGTTTCAAAGCAGAAGGAGAATTGGAAAGGCATTCTCTGTTTCACACAAGAAGAGTGTCCTCAGACACCACTAGTCAGAGTTCAAACACAGATATTGACAAGAAGTCTGAATTTACAAAAAGCTTCAAAATTGGAAAGAAGTCTGAGACATCAAAAGGCTCAGAAACTTTAAGAAAGATGGATCTAAAGCCAATTCCAGGAAACAAAAATGAGACAAGTTTATTGAAACAAACACTGTTACAGAATCGGGAATGTACTGAAATCAGATTAACGAAAAGAAGCCCATCATTGGACACCAATACCGATGATGTAAAGATTAAAAAACGAGTAGGTTTATCAGCTGAGACAAGGAGTAACAGTGGCAGTCGGCGTAAGAATTCAAAACCACGGAAGATAGCAAGGAATGAGGAAGATGGTGAGGACTTCGATCAGACGGCTCTGAATATTTATACCTGTAATAATTGTTCTCAAGTTTTTCATACACCATTAGACCTGCAAGAGCATAGAGACACCCATGATGTTGAAGAGGAAACAAATATTGGAAATGGAAGCAACACAAAACCATATACATGTCTCCTTTGTGAGAAACATTTCTCCCTGCGTACATCTTTTAGCCGACATTTTAATGCCTGTCATGGCATAGATCCTTCAGAAGTAATGAATATTTCAAGGTATCAACGAACACCTCAGAAAAAGCAGGAAATATGCACTTTTGTCCCAACTGGGAATAGCCAGTCCACATCCAAGAAATTTGATGGGCAACAAAAAAATGGTGTTAGTCAGATGTCTGGCAACCAAAAGACCATGGAAGAAAATGTAATAGTGATAGATGATACTGAAGATGATAGATTGCCAGTAGAGAGAATGTGTGCAGCACAGACTGGTTTTATGTGTGAGGTATGCACAAGGGAATTTGGTGACCGTGCTAGTCTCTGGCTCCACCTGCGATACACGCACAAGGAATGTGCAGCTTATGCCTGTGGCATTTGTCTAAAGATCTGTGAGAATAACACTCAGCTTTACCAACACTGGAAAACTTTCCATCCTCCTGATAATTCAACAGATCAACGCCGGTACTGTTGTCAAATGTGTGGTCGACAGCACGATTGTCGAAAGAAGTTGCTAAGACACGTGTCTGTTCATAACCTTGACAACGGTACTGGAGGAGTTTATGATCCTGAAATGCTTGTTACACCAAACACTGGTTTTTATAAATTTGAGAATCGTGATGAAAATTCAGTGAGTGAGCATAAACCAGCCTTAGAACAGGAGGTTTTGGCTGACTTCAGCAGTGGTGAATATGCAAGTGCAAGAATCACTGAAGGAGCCTCTTCATTTGGCTGTGAGTTGTGTTACAAGTCGTTCCCAACAGAGGATGGGCTGGTGAAGCATAAGAAAGGTGCTCATAAAGTGAATCTCAACTCAGAGGTAGATGTTCTGAACAGTTTCAGGGGTTCATATCAACTTTACTTTGTTTGTGAATTGTGTGGAAGTTCACACAGAAGCAAATCTGAGAGATGGAGGCATGTTTTTCGGGCTCATAATGGTGATTCTGCTTTAACGTGCAACAAAGAAGGGTGTGGAAAAGTGTTTCCCACACGCACATTAAAACAAGAACACTGCAAAAATCATCACCGGCTACAGGGAGCAACACCAAATGTGTGTGAAATCTGTGGGAAGCTTTGGGGTACCCGTGTTGATTTCTGGAAGCACTTGATGGGTGTACACTCAGACTGTGTGCCACTGACATGTGGTGTATGTCTGAAGATATTCTGTACTGTTCCAGACCTTCAGGGCCATGTCCATTCAACCCACATGCCATTAACTGGTGGAGACTTCTGCTGTGACATTTGTGGTCGTGCATATTCTAACAGGTCAAAGCTTTCAAGGCATCGCAGAATACATTTGATAGACCATCACAGTGATGTCCTTCAAGTCCCACTTCCTAAGAAACCATGCTCCTTGCCTACCAGCATTCCTGAAAACAGTAGTAATGACATTTTCTTCAGTGCATCCAGTACTCCGTCAGTAGGAACAGCCAAGAAATTTGTACCAGCAGTGAAGACTGTTACAAAATCTATAAGCAAATCAGTGTCATCTCAATCAAGTACAATTTCAAAACTCAATAAAATTCCAGGTTTATCACAAGCAATTAAAGCTTCTGCTCTCAAACCTCAGCCACTGCTCTTCTGTGATGTCTGTCCTGAGATGACATTTCATTCCATAGCACAGTTGGCAGAGCATCGTCGCAAAATTCACTCTCTTCATCCATGTGACCTGTGTTCAAAATTTTATGGTAGGACAGCAGATCTGTGGAAGCATGTCAAGAGAGTTCATAACAACCACCCAGAACTGACATGTCAGATATGCAAAAGAATTTCAGCAAGCAAAGCTCACCTAGAAAGTCATATCTCTACAAAACATTATCCCAAGAATCCAAACCCTACTACCAAACTATCTTTATCTAGTCTGTGTTTCACACCTGGGAAAATTGTGAAAATCCCAACACTTTATCCATGCCACAAATGCTCAAAACGATTCTGGAAATCTCACCTTCTCAAGAAACACCAGCGGCATTGCTTGCGTGCAGTTAAACCTAAACCACCGAAACTTACAAAAATTAGATCAGATTCTTCTGCTTCCACACAGGATCGAACTTGTGATGCATGCTCTAAGGTTTTCTCTACTCCATCACGACTGAAGGACCACCAGAAAGTAGCTCATGCTCCACAGGACTGTGAACTCTGTCCTGATGTCTCCTTCACATCCAAAACAGATCTCTTTGCTCATATCAAGGAATATCACAACAGTCACCCCAACTTCTGCTGCCCTGTTGCCAGCTGTTCAAGAACAATGAGGTCAAAGTCCGATCTCAATAGGCACCACAAACAACATGCTTCAGTTAAATATCCACCCACGTGCTATCTGTGTGGAGAAGTCTGTGTAAATAAAGTGAGACTATGGAATCACCTTACTTCAGCACAGCACAGGGCTGCCATCCCTCTTACATGTGGTGTTTGTTTCAAATACATTCCATCAACTGAAGAACTTATTCAGCATGTAGAGAGCTTCCATCCAAGAGCCTTGAATGCTCCAGACACATGTCGAATATGTGCCAAGACTTACTCCAGTGTGTACAAAGTAATGACACATTTTGCAAAGTGCCACCCAGAATATTATGCTTGTAAAGACTGCCTCCAGGTATTTAAAAGCAAGAGAGAATTACAGGAGCATAGTGAAAGGGGGCATGTCAGAACACTTGAAGATGCAGGTGTGACAAGTGATGTTGAAGGTGGAGAGGAAGCAGGGAAAAATGAACAAGTATCAAGGAAGGTGGATGGAAATGAAACTGAAAATTACCAGTTGCCATGTGAATTCTGCAGAGAAATCTTTCCAACCTATGCAGAATTGATAAAACACACTGAAGCAAAACATTTCAGTTCAAATTCGGGTGCTGAAGAAGAACCATTAAATAATCCAAAGAATGATGTAGAATTGAACAGGGTTCCCAAGAGACCAAAGCGTTCATACAGTTGTGAGAAATGCTCTGTAAGCTTCCGTTCACCATCAGATCTTGTAGACCACAAAAACCTGAAGCATGCCTCATCCATATCAGATATAAAACCATACCATTGTGTGCAGTGTGACAGACATTTCACTAATAAATCATATTACTGGAAGCATATTAACTCTCCTGCCCACATGTCCAAACAGATGCGACAGAAATTTGTCACAGCAGCAGTAGTGTCGCAGAGGAATCTTATGACTGGAAAACAACAGTCGTACAATTTAAATTTCCGTGACAGTACAGGAGACAGTTCCAGTGTAGAAGCACAAAGTCAGGTAAAGTTCAATTCTGAAGTACCTTTCGTGTACATACCAGAATCCATTCTGCAAGGTAATGTTATAAAAGAAGTTGAGAATGAGATGAATCACACTAGTGGTACCACTAGTTCCATGAAGGAAAGCAATGACAAAGATAAGAAGAATGATCATGAAGGTGATTTGACATTAAGTTCTGAGAGTGTGGGCTATAACAGTGAGCATGTGCTTTCTTATGGTGAGGCCCGTGATACATCATTCAATGTAAAACTGAATCGTCGAAAGTCAGAAGTCCGTACAGTTTACAGCGCCAACTCTGGCTCAAATTCCCCTTGTTACTGTCAACTGTGTGGAAAGGAGTGGCCAGCCCTTAAACACCTTTGGCAACATCTTATTCGTAATCACCGGCCGGAGGCTGCAGTAACTTGTGGGGTGTGCCTTGAGGTTTGTTATGATTATCACAGCCTTGCCTCTCATCTGAGTTCACAGCATCCTGGCAATTTTACTGGTGAAGGGAACAATTTCACATGTCGTATATGTGGCCGTTATCACAATGCCCGATCAAAACTGATCCAGCATGCAACTATACATATTGTCTTGGGTACAGAGCCAGAACATCAACCACAGTCAAATCTTCATAATTGTCAAACATGTTTCAGGTCTTTCACCAGTGAACAAAATCTTCATGATCATCAGAAGACACATCAGTCTTTCATTGGTGTTTCAAATTCAGTAGTCCAAAGTGAGAAGGCGGAACACAAGTGTGAAGTATGCTACAAAGTTTGTGGTAATGTAGGTGCCCTTGTGACACACCAAAAGAGTCATAAAGTGAATGAACATGAACTTCTCACAAGAAGTGATGATTTGGTGGAAATGGAAACAGAAGAATTAGAACATGATGTGGCAAATAATCAAGACTGTGAGAGTGAACAATTCTATAGCTGTGACATTTGTTTGAAGGTTTTTAAAAATGAGTCACTTTTCAGTGAACATAAACAAACCCATGTTGAATCGTTTAATAATAAGAATGTAACAGTGTCATGTGGCGTGAGGTTACAAGTACCAAAGTTTGAGAAGCAACATTTCTACATGTGTGACATTTGTGATTTAGTATTTGAGACAGAAAAGAGTTTAGCAGCCCATTTTGAAAGCCACAGTATGTCTTTACAACCGACATCTTCAGTATCAGATGCACAGCATTCATATGTCTGTAATCTCAGCCAAGATTTTCTGGGCTCAGTCAGTTATGAATCACAAGGAATGATACCGAAGGGTAAATTCTCTTGCACTGTCTGTCATATGATATTTCCTACCCCAGTTGTCCTGTCTACGCACTTTGAAGTTTCCCACAATAAACGCTACACCTGTAGCTGCTGTAAAAACAAGACATTTACATCATACATAAACCTCACCAAACATTTTCGTATCTGCCGTCTTAAAAAGATGCGACTACGTAGCTGTCCAGCTAGCATCCAGCTGCTGAAGACATGGAAAGACAAGTCAAAACAAAATTCAGTTATTTTGTCAGTGGACAGTCAAAAACCTTTAAGTGCTAAACAGTCATCAGAGGAAACTTTGGCTGTGGACATTCTTGAGGAAACTCAAAATGGTGAGCCTCATTCCAGTGTTGTAGGAGAGACTGAAGAATTGAAACATGACGTAACAGCTCAACCATTGGGTGAAGCTGCAAGTGTAGAATTCAGAATTCTGACAGAAAGCAATAATGTAGAAATATCTAAAGAATATACTGCCATTAATGCAGAATCTCTTTCCATCTCAGAGATCAAGTCTGACTTATTGGTAGATTCTGAACTTAAACAGAATGAATTTCGAGATGATGGCAGTGAAACACAGGGAAGGTCTCTAAGTAAAGCAGGTCCTATTAATTCAGACAGTAAAGTACCTAATTTTCAGAATAATACAAACTCACCTGTTGAACATTTTGAGGAGCTTCAGCAAACTGAGATGGATGAATCTCATTACTCTTCAGGCACAGAATCAAAACCCCACATTAACAACCCTTTGGGAATTAGTGCAGAAATGAATGATTCAGAGCTCAGAAATTGTAGAAAAGATCAATTTGTGTGTGAAGATATTGATTTTAGATTAGAGGATGAAATGACTGACTATTTAATGAAAGAAGGCACTTGCCTAGATATTGCAATGACAGTAGTTTCAGATTCCACACCAAATCCAGGAGAAGAGTTGATGGAAGTAGAATCTCCAGGTCACTGTTGTGAAGCACCAGTGATGGAACAGCAAGAACAAGTTACAACAGAAACTGGGCAACATAGCTCTGTTCAGTCTGAACTTTGTCCTGAAATCATACATAAATATGTCGTTCAGAGTTCACCGAATTCTTCAGGTGTTTTGCAGAAATCACCTACACATATGACAGAAAACAGAGACAAATCTGTTGGGAATGGCCCTACTGACAGTGATATGGGACATGACATCATGGCAGAAGTAACAGATAATGAAGTTATAAGTGCAGAGGCGTGTGATTTCTCTGAAAGCAATCTAAACTCAACGTCTTGCCCATTGTCAACAAGTGATGGAAGTCAGCAGACACATGTATCTGAGGATTCTCTTGCCATCTGTAAAGATGACCTCAAGAAAACTAAGGACTGTTTATATTCACTGGAAGATGCTTTAGATAAACTTGAGGCTCAGAATACTGAATAA
Protein Sequence: MSCGPDNYMELCRLCACYDAIKMEIFGDEGRERNLVDKIQTCLPLQVSERDNLPKSLCYRCMYNLENFYDFRKRSVNAVALLESCIGQSEGSTEVGAELKEQFERLRSQLRDIKNDETQEKDIPMPHLEPQFPVPMLVPENRQTGGTGPGHSEALSSANVQSEAHPPSDDEVTEVKHEDDEVAEVKRDEHDDQHVSMDSEVVDNTSGRKKGAIKSGRYSGGVGEEELSEQEMFHTCSICNKAFSSNGHLTLHNKIHMKEAVMENHSKQPCCQTSSPVDKSLDLNWKSGYYRPYRCDLCNKSYSTAKHRWGHVSVCHRGNPLVTCPICSRVFSTCHNLAEHKRTKHGLEEGEIVDINDGEEAVTDNSSVSVTNSLKHSTSLTTQHSVDKRNSYSAIADNFQKSAGNLKSSQSGTSKSSLNNPEALHTGMKCLKRFKAEGELERHSLFHTRRVSSDTTSQSSNTDIDKKSEFTKSFKIGKKSETSKGSETLRKMDLKPIPGNKNETSLLKQTLLQNRECTEIRLTKRSPSLDTNTDDVKIKKRVGLSAETRSNSGSRRKNSKPRKIARNEEDGEDFDQTALNIYTCNNCSQVFHTPLDLQEHRDTHDVEEETNIGNGSNTKPYTCLLCEKHFSLRTSFSRHFNACHGIDPSEVMNISRYQRTPQKKQEICTFVPTGNSQSTSKKFDGQQKNGVSQMSGNQKTMEENVIVIDDTEDDRLPVERMCAAQTGFMCEVCTREFGDRASLWLHLRYTHKECAAYACGICLKICENNTQLYQHWKTFHPPDNSTDQRRYCCQMCGRQHDCRKKLLRHVSVHNLDNGTGGVYDPEMLVTPNTGFYKFENRDENSVSEHKPALEQEVLADFSSGEYASARITEGASSFGCELCYKSFPTEDGLVKHKKGAHKVNLNSEVDVLNSFRGSYQLYFVCELCGSSHRSKSERWRHVFRAHNGDSALTCNKEGCGKVFPTRTLKQEHCKNHHRLQGATPNVCEICGKLWGTRVDFWKHLMGVHSDCVPLTCGVCLKIFCTVPDLQGHVHSTHMPLTGGDFCCDICGRAYSNRSKLSRHRRIHLIDHHSDVLQVPLPKKPCSLPTSIPENSSNDIFFSASSTPSVGTAKKFVPAVKTVTKSISKSVSSQSSTISKLNKIPGLSQAIKASALKPQPLLFCDVCPEMTFHSIAQLAEHRRKIHSLHPCDLCSKFYGRTADLWKHVKRVHNNHPELTCQICKRISASKAHLESHISTKHYPKNPNPTTKLSLSSLCFTPGKIVKIPTLYPCHKCSKRFWKSHLLKKHQRHCLRAVKPKPPKLTKIRSDSSASTQDRTCDACSKVFSTPSRLKDHQKVAHAPQDCELCPDVSFTSKTDLFAHIKEYHNSHPNFCCPVASCSRTMRSKSDLNRHHKQHASVKYPPTCYLCGEVCVNKVRLWNHLTSAQHRAAIPLTCGVCFKYIPSTEELIQHVESFHPRALNAPDTCRICAKTYSSVYKVMTHFAKCHPEYYACKDCLQVFKSKRELQEHSERGHVRTLEDAGVTSDVEGGEEAGKNEQVSRKVDGNETENYQLPCEFCREIFPTYAELIKHTEAKHFSSNSGAEEEPLNNPKNDVELNRVPKRPKRSYSCEKCSVSFRSPSDLVDHKNLKHASSISDIKPYHCVQCDRHFTNKSYYWKHINSPAHMSKQMRQKFVTAAVVSQRNLMTGKQQSYNLNFRDSTGDSSSVEAQSQVKFNSEVPFVYIPESILQGNVIKEVENEMNHTSGTTSSMKESNDKDKKNDHEGDLTLSSESVGYNSEHVLSYGEARDTSFNVKLNRRKSEVRTVYSANSGSNSPCYCQLCGKEWPALKHLWQHLIRNHRPEAAVTCGVCLEVCYDYHSLASHLSSQHPGNFTGEGNNFTCRICGRYHNARSKLIQHATIHIVLGTEPEHQPQSNLHNCQTCFRSFTSEQNLHDHQKTHQSFIGVSNSVVQSEKAEHKCEVCYKVCGNVGALVTHQKSHKVNEHELLTRSDDLVEMETEELEHDVANNQDCESEQFYSCDICLKVFKNESLFSEHKQTHVESFNNKNVTVSCGVRLQVPKFEKQHFYMCDICDLVFETEKSLAAHFESHSMSLQPTSSVSDAQHSYVCNLSQDFLGSVSYESQGMIPKGKFSCTVCHMIFPTPVVLSTHFEVSHNKRYTCSCCKNKTFTSYINLTKHFRICRLKKMRLRSCPASIQLLKTWKDKSKQNSVILSVDSQKPLSAKQSSEETLAVDILEETQNGEPHSSVVGETEELKHDVTAQPLGEAASVEFRILTESNNVEISKEYTAINAESLSISEIKSDLLVDSELKQNEFRDDGSETQGRSLSKAGPINSDSKVPNFQNNTNSPVEHFEELQQTEMDESHYSSGTESKPHINNPLGISAEMNDSELRNCRKDQFVCEDIDFRLEDEMTDYLMKEGTCLDIAMTVVSDSTPNPGEELMEVESPGHCCEAPVMEQQEQVTTETGQHSSVQSELCPEIIHKYVVQSSPNSSGVLQKSPTHMTENRDKSVGNGPTDSDMGHDIMAEVTDNEVISAEACDFSESNLNSTSCPLSTSDGSQQTHVSEDSLAICKDDLKKTKDCLYSLEDALDKLEAQNTE

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_00370428;
90% Identity: -
80% Identity: -